RNAi Efficiency, Systemic Properties, and Novel Delivery Methods for Pest Insect Control: What We Know So Far.

In recent years, the research on the potential of using RNA interference (RNAi) to suppress crop pests has made an outstanding growth. However, given the variability of RNAi efficiency that is observed in many insects, the development of novel approaches toward insect pest management using RNAi requires first to unravel factors behind the efficiency of dsRNA-mediated gene silencing. In this review, we explore essential implications and possibilities to increase RNAi efficiency by delivery of dsRNA through non-transformative methods. We discuss factors influencing the RNAi mechanism in insects and systemic properties of dsRNA. Finally, novel strategies to deliver dsRNA are discussed, including delivery by symbionts, plant viruses, trunk injections, root soaking, and transplastomic plants.

Angiotensin-converting enzyme inhibitory effects by plant phenolic compounds: a study of structure activity relationships.

In this study, 22 phenolic compounds were investigated to inhibit the angiotensin-converting enzyme (ACE). Tannic acid showed the highest activity (IC50 = 230 µM). The IC50 values obtained for phenolic acids and flavonoids ranged between 0.41 and 9.3 mM. QSAR analysis confirmed that the numbers of hydroxyl groups on the benzene ring play an important role for activity of phenolic compounds and that substitution of hydroxyl groups by methoxy groups decreased activity. Docking studies indicated that phenolic acids and flavonoids inhibit ACE via interaction with the zinc ion and this interaction is stabilized by other interactions with amino acids in the active site. Other compounds, such as resveratrol and pyrogallol, may inhibit ACE via interactions with amino acids at the active site, thereby blocking the catalytic activity of ACE. These structure-function relationships are useful for designing new ACE inhibitors and potential blood-pressure-lowering compounds based on phenolic compounds.

A cell-based reporter assay for screening for EcR agonist/antagonist activity of natural ecdysteroids in Lepidoptera (Bm5) and Diptera (S2) cell cultures, followed by modeling of ecdysteroid-EcR interactions and normal mode analysis.

Ecdysteroid signal transduction is a key process in insect development and therefore an important target for insecticide development. We employed an in vitro cell-based reporter bioassay for the screening of potential ecdysone receptor (EcR) agonistic and antagonistic compounds. Natural ecdysteroids were assayed with ecdysteroid-responsive cell line cultures that were transiently transfected with the reporter plasmid ERE-b.act.luc. We used the dipteran Schneider S2 cells of Drosophila melanogaster and the lepidopteran Bm5 cells of Bombyx mori, representing important pest insects in medicine and agriculture. Measurements showed an EcR agonistic activity only for cyasterone both in S2 (EC50=3.3µM) and Bm5 cells (EC50=5.3µM), which was low compared to that of the commercial dibenzoylhydrazine-based insecticide tebufenozide (EC50=0.71µM and 0.00089µM, respectively). Interestingly, a strong antagonistic activity was found for castasterone in S2 cells with an IC50 of 0.039µM; in Bm5 cells this effect only became visible at much higher concentrations (IC50=18µM). To gain more insight in the EcR interaction, three-dimensional modeling of dipteran and lepidopteran EcR-LBD was performed. In conclusion, we showed that the EcR cell-based reporter bioassay tested here is a useful and practical tool for the screening of candidate EcR agonists and antagonists. The docking experiments as well as the normal mode analysis provided evidence that the antagonist activity of castasterone may be through direct binding with the receptor with specific changes in protein flexibility. The search for new ecdysteroid-like compounds may be particularly relevant for dipterans because the activity of dibenzoylhydrazines appears to be correlated with an extension of the EcR-LBD binding pocket that is prominent in lepidopteran receptors but less so in the modeled dipteran structure.

Biologia comparada de populações de Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) em folhas de milho e arroz / Compared biology of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) populations in corn and rice leaves

O objetivo do trabalho foi estudar a biologia de populações de Spodoptera frugiperda (J.E. Smith) em folhas de milho e arroz irrigado. Foram coletadas lagartas de quatro populações no Rio Grande do Sul: em áreas isoladas (distanciadas em mais de 300 km), municípios de Santa Rosa (M/SR) e Uruguaiana (A/U), tradicionalmente produtores de milho e arroz irrigado, respectivamente; e, em áreas adjacentes, município de Pelotas, que produz milho (M/P) e arroz irrigado (A/P) lado a lado. Individualizaram-se 150 lagartas em tubos de vidro contendo folhas do híbrido de milho Pioneer 30F33 e do cultivar de arroz irrigado Pelota, em condições controladas de temperatura (25 ± 1ºC), umidade relativa (70 ± 10 por cento) e fotofase (14h). Por ocasião da emergência dos adultos, 20 casais foram individualizados em gaiolas cilíndricas de PVC revestidas internamente com papel jornal, e alimentados com solução aquosa de mel a 10 por cento. As populações de S. frugiperda originárias do milho e arroz, independente do local de coleta, apresentaram necessidades fisiológicas intrínsecas e que são evidenciadas nos diferentes parâmetros biológicos avaliados. As populações M/SR e M/P (cultura do milho) e A/U e A/P (cultura do arroz irrigado), não apresentaram diferenças fisiológicas. Diante dos resultados, conclui-se que ambos biótipos "milho" e "arroz" de S. frugiperda ocorrem no Rio Grande do Sul.

The objective of this work was to analyze the biology of Spodoptera frugiperda (J.E.Smith) populations in corn and irrigated rice leaves. Caterpillars from four populations from Rio Grande do Sul state were collected from isolated areas (distant more than 300 km apart), from the counties of Santa Rosa (M/SR) and Uruguaiana (A/U), traditional areas of corn and irrigated rice production, respectively, and in adjacent areas in Pelotas county, where corn (M/P) and rice (A/P) aregrown side by side. In the laboratory, 150 caterpillars were individualized in glass vials containing leaves of the Pioneer 30F33 corn hybrid and the cultivar of the irrigated rice Pelota, under controlled temperature (25 ± 1ºC), relative humidity (70 ± 10%) and photophase (14h). After adult emergence, 20 couples were individualized in cylindrical PVC cages, covered inside with paper towels, and fed with a 10% honey aqueous solution. All populations of S. frugiperda collected from corn and rice, regardless their place of origin, showed unique physiological needs, as evidenced by the different biological parameters evaluated. The Populations M/SR and M/P (maize) and A/U and A/P (irrigatedrice), did not differ physiologically. Based on the results, both “corn” and “rice” S. frugiperda biotypes are present in Rio Grande do Sul.